Clutch control device for 4-wheel drive vehicle

The invention claimed is: 1. A clutch control device for a four-wheel drive vehicle having a pair of main drive wheels and a pair of auxiliary drive wheels which are selectively connected to a drive source, the clutch control device comprising: a dog clutch operatively disposed in a transmission path between the main drive wheels and the auxiliary drive wheels to separate a system for transmitting drive force to the auxiliary drive wheels from a system for transmitting drive force to the main drive wheels by releasing the dog clutch, the dog clutch being engageable whether or not the main drive wheels are in a slip state; a friction clutch operatively disposed in a transmission path between the main drive wheels and the auxiliary drive wheels to allocate a portion of the drive force from the drive source to the auxiliary drive wheels in accordance with a clutch engagement capacity of the friction clutch; and a clutch controller operatively coupled to the dog clutch and the friction clutch to selectively carry out an engagement and disengagement control of the dog clutch and an engagement and disengagement control of the friction clutch, the clutch controller, in response to a request to engage the dog clutch, being programmed to first control an engagement of the friction clutch, monitor a change gradient of a clutch differential rotation speed of the dog clutch while controlling the engagement of the friction clutch, and start an engagement of the dog clutch upon determining that the gradient of the clutch differential rotation speed is no longer decreasing. 2. The clutch control device as recited in claim 1 , wherein the clutch controller comprises a decreasing gradient determination section which is programmed to determine that the gradient of the clutch differential rotation speed is no longer decreasing upon detecting the change gradient of the clutch differential rotation speed either to zero, or increasing. 3. The clutch control device as recited in claim 1 , wherein the clutch controller comprises a drive mode switching control section programmed to selectively carry out a switching control in accordance with a vehicle state to selectively establish a disconnected, two-wheel drive mode in which the dog clutch and the friction clutch are disengaged, a standby two-wheel drive mode in which the dog clutch is engaged and the friction clutch is disengaged, and a connected, four-wheel drive mode in which the dog clutch and the friction clutch are engaged, as drive modes of the four-wheel drive vehicle, and the drive mode switching control section being programmed to engage the dog clutch upon a switching transition from the disconnected, two-wheel drive mode to the standby two-wheel drive mode, or, a switching transition from the disconnected, two-wheel drive mode to the connected, four-wheel drive mode. 4. The clutch control device as recited in claim 1 , wherein the dog clutch is disposed upstream of a transfer mechanism provided at a drive branch position to the auxiliary drive wheels, and the friction clutch is disposed in a drive shaft of one of the auxiliary drive wheels which extends from the transfer mechanism that is connected to a propeller shaft and a differential. 5. The clutch control device as recited in claim 1 , wherein the friction clutch is disposed upstream of a transfer mechanism provided at a drive branch position to the auxiliary drive wheels, and the dog clutch is disposed in a drive shaft of one of the auxiliary drive wheels which extends from the transfer mechanism that is connected to a propeller shaft and a differential. 6. The clutch control device according to claim 2 , wherein the clutch controller comprises a drive mode switching control section programmed to selectively carry out a switching control in accordance with a vehicle state to selectively establish a disconnected, two-wheel drive mode in which the dog clutch and the friction clutch are disengaged, a standby two-wheel drive mode in which the dog clutch is engaged and the friction clutch is disengaged, and a connected, four-wheel drive mode in which the dog clutch and the friction clutch are engaged, as drive modes of the four-wheel drive vehicle, and the drive mode switching control section being programmed engage the dog clutch upon a switching transition from the disconnected, two-wheel drive mode to the standby two-wheel drive mode, or, a switching transition from the disconnected, two-wheel drive mode to the connected, four-wheel drive mode. 7. The clutch control device according to claim 2 , wherein the dog clutch is disposed upstream of a transfer mechanism provided at a drive branch position to the auxiliary drive wheels, and the friction clutch is disposed in a drive shaft of one of the auxiliary drive wheels which extends from the transfer mechanism that is connected to a propeller shaft and a differential. 8. The clutch control device according to claim 3 , wherein the dog clutch is disposed upstream of a transfer mechanism provided at a drive branch position to the auxiliary drive wheels, and the friction clutch is disposed in a drive shaft of one of the auxiliary drive wheels which extends from the transfer mechanism that is connected to a propeller shaft and a differential. 9. The clutch control device according to claim 2 , wherein the friction clutch is disposed upstream of a transfer mechanism provided at a drive branch position to the auxiliary drive wheels, and the dog clutch is disposed in a drive shaft of one of the auxiliary drive wheels which extends from the transfer mechanism that is connected to a propeller shaft and a differential. 10. The clutch control device according to claim 3 , wherein the friction clutch is disposed upstream of a transfer mechanism provided at a drive branch position to the auxiliary drive wheels, and the dog clutch is disposed in a drive shaft of one of the auxiliary drive wheels which extends from the transfer mechanism that is connected to a propeller shaft and a differential. 11. A clutch control device for a four-wheel drive vehicle having a pair of main drive wheels and a pair of auxiliary drive wheels which are selectively connected to a drive source, the clutch control device comprising: a dog clutch operatively disposed in a transmission path between the main drive wheels and the auxiliary drive wheels to separate a system for transmitting drive force to the auxiliary drive wheels from a system for transmitting drive force to the main drive wheels by releasing the dog clutch; a friction clutch operatively disposed in a transmission path between the main drive wheels and the auxiliary drive wheels to allocate a portion of the drive force from the drive source to the auxiliary drive wheels in accordance with a clutch engagement capacity of the friction clutch; and a clutch controller operatively coupled to the dog clutch and the friction clutch to selectively carry out an engagement and disengagement control of the dog clutch and an engagement and disengagement control of the friction clutch, the clutch controller, in response to a request to engage the dog clutch, being programmed to first control an engagement of the friction clutch, monitor a change gradient of a clutch differential rotation speed of the dog clutch while controlling the engagement of the friction clutch, and start an engagement of the dog clutch upon determining that the gradient of the clutch differential rotation speed is no longer decreasing, the clutch controller monitoring a change gradient of the clutch differential rotation speed of the dog clutch by calculating a difference between an output rotational speed and an input rotational speed of the dog